GROWTH AND ORGANIZED DEVELOPMENT OF CULTURED CELLS. V. THE GROWTH OF COLONIES FROM FREE CELLS ON NUTRIENT AGAR

When angiosperm cells are cultured in a liquid medium they may grow in the form of free, single cells and form small to large groups of cells. This has been shown in earlier papers. This paper deals with the growth of strains of cells (Daucus carota and Haplopappus gracilis cells were used), washed and filtered free from the larger groups, on nutrient agar media in Petri dishes, thus simulating familiar microbiological technique. Each discrete member of a suspension is referred to as a “unit.” On the order of 1–10% of the separate units of a suspension may be induced to grow into viable colonies, depending on the strain and the conditions employed. Whereas at least 30% of the free single carrot cells were shown to be capable of division, only up to about 4% continued their growth to form macroscopically visible colonies when they were widely dispersed. Coconut milk promotes the growth of carrot cells into colonies. Both coconut milk and napthaleneacetic acid, which interact synergistically, arc required for the growth of Haplopappus cells. Various techniques which affect viability (the frequency with which units grow into colonies) were investigated. The viability of carrot units was found (1) to increase with their density on the plates; (2) to decrease upon washing the suspensions prior to plating; (3) to increase with increasing initial size; and (4) to decrease to a vanishingly low value in rigorously filtered suspensions which consist principally of single cells, although the single cells were found to grow with appreciable frequency when the larger units were also present; and (5) to increase dramatically (100-fold) when a rigorously filtered suspension was plated on a medium upon which pieces of growing cultured tissue were placed. Thus, the induction of growth in free cells is enhanced, even in an environment nutritionally optimal for the growth of the larger cell masses, by as yet unknown factors which are contributed by the cells themselves, or by adjacent cells or groups of cells. It is suggested that within a group of cells growing in culture, and perhaps also in the organized growing regions of intact plants, the dividing cells are nourished or stimulated by adjacent but less frequently dividing cells. The implications of these results are discussed.     

GROWTH INDUCTION IN CULTURES OF HAPLOPAPPUS GRACILIS. II. THE BEHAVIOR OF THE NUCLEUS

Mitra , J., and F. C. Steward . (Cornell U., Ithaca, New York.) Growth induction in cultures of Haplopappus gracilis. II. The behavior of the nucleus. Amer. Jour. Bot. 48(5): 358–368. Illus. 1961.—Cells of Haplopappus, which have been stimulated to grow under the influence of coconut milk and such synergists as naphthalene or 2,4-dichlorophenoxy acetic acid, can be cultivated as free cells, as small cell clusters, or as peripheral cells on a cultured colony or mass. Such cells display forms and cell lineages, the general pattern of which is reminiscent of those that may occur in early embryogeny. To this extent, Haplopappus resembles what has previously been observed in the growth of free cells of carrot. The form of the normal chromosome of Haplopappus (2n = 4) is described with respect to root tip cells. The range of effects which may be observed in the nuclei of the cultured cell is also described. Such variations as the following were encountered: (1) multinucleate giant cells which may divide by internal segmentation; (2) polyploidy, giving rise to highly polyploid nuclei up to, and even in excess of, 64 chromosomes; (3) somatic pairing; (4) haploidy; (5) pseudochiasmata, with the evident implication of somatic “crossing-over”; (6) chromosome breaks, reunions and bridges, such as are commonly associated with effects of radiation and with chemical mutagens. Attention is drawn to the usefulness of this material for the further experimental investigation of the biochemical basis for the cytological events which are here described, and, if the variant cells may be cloned, of the relationship between the aberrant nuclear cytology and the ability of the cells or colonies to differentiate or to undergo morphogenesis.     

GROWTH AND ORGANIZED DEVELOPMENT OF CULTURED CELLS. VII. CELLULAR VARIATION

Variation in long-continued cultures of Haplopappus gracilis and Daucus carota has been investigated. A strain of carrot tissue was isolated that grew with a compact habit, in contrast to the highly friable habit of the parent strain. Its dividing cells were arranged quite differently than in the parent strain. Earlier work had shown that Haplopappus cultures could be reversibly altered in their pigmentation and form, by changing the culture medium. This was confirmed, and it was further shown that pronounced changes in nitrogenous compounds also occurred in response to factors in the medium. However, strains of Haplopappus were isolated which differed persistently from the parent strain, even when they were maintained under the same conditions. The variant strains, grown in the same medium, showed differences in their content of nitrogenous compounds. Stock cultures also changed spontaneously with time with respect to their content of nitrogenous substances. Acriflavine, at low concentration, inhibited the growth and formation of colonics by cells plated on nutrient agar, but, by prolonged exposure to sublethal amounts of the drug, resistant strains were isolated. Certain of the spontaneous variant strains were found to differ from each other and from the parent strain in their chromosome complements in ways that are described and to which the observed changes in morphology and metabolism of the cultures may be attributed. The variations that may occur in the free cells in culture are contrasted with the greater uniformity of the cells as they exist in the plant body.     

THE BEHAVIOR OF TISSUE CULTURES FROM ENGLISH AND ALGERIAN IVY IN DIFFERENT GROWTH PHASES

In both the English and Algerian ivies, Hedera helix L. and Hedera canariensis Willd., leaf dimorphism of the juvenile and the mature, fruiting growth phases is pronounced, the former being a vine with lobed leaves and the latter a shrubby, upright form with entire leaves. Tissue cultures of English ivy started from stems of the two growth phases on the same plant consistently behaved differently, those from the juvenile stage invariably having the higher proliferation rate and larger cells. These differences were maintained consistently in monthly transfers over a period of two years. No medium was found which would support the growth of tissue subcultures of the adult stage of Algerian ivy, but all growth phases of the English ivy were cultured freely in a modified White's medium with additions of coconut water, naphthaleneacetic acid, enzymatic casein hydrolysate, and inositol. Cultures from individual open-pollinated seedlings of both species varied greatly in proliferation rate but were usually high.     

MITOSIS IN SUSPENSION CULTURES OF HIGHER PLANT CELLS IN A SYNTHETIC MEDIUM

Torrey , J. G., J. Reinert , and N. Merkel . (Harvard U., Cambridge, Mass.) Mitosis in suspension cultures of higher plant cells in a synthetic medium. Amer. Jour. Bot. 49(4): 420–425. Illus. 1962.—A cytological study was made of plant tissue cultures growing in liquid synthetic medium. Mitoses in cell suspension cultures of root callus tissues of Daucus carota L., Convolvulus arvensis L. and Haplopappus gracilis (Nutt.) Gray were found to occur frequently in the first 2 weeks of culture with the highest frequency at about 7 days. No mitoses were observed after 3 weeks, although fresh weight and the number of free-floating cells in the suspension continued to increase for the entire culture period of 4–6 weeks. Mitoses were most frequent in tissue pieces, but occasional mitoses in single isolated cells in suspension were observed in each type of tissue. Normal mitoses were observed in diploid and polyploid cells of all 3 types of tissues cultures. Little evidence of nuclear or chromosomal aberrations was observed in these cultures.     

Morphogenic potential of mechanically isolated single cells from Digitalis obscura L. callus

Calli from hypocotyl and root explants of Digitalis obscura L. showed regeneration of adventitious shoots, roots and embryos when transferred to Murashige & Skoog medium supplemented with cytokinins alone or in combination with auxins. Optimum shoot-bud formation was achieved in the presence of IAA and BA, while roots mainly appeared either in absence of growth regulators or with IAA and Kn. Embryo formation took place only in those combinations that included Kn. Embryo development was influenced by the type of auxin, and precocious germination occurred in media with NAA. Mechanically isolated cells from hypocotyl- and root-derived calli were plated in MS medium supplemented with several IAA and BA combinations. Single cells were able to proliferate forming callus within 20–30 days in culture. In order to induce organogenesis, calli were transferred to various regeneration media. Shoot-bud differentiation efficiency depended on both callus origin and medium initially used for cell culture, best results being obtained in calli grown from hypocotyl-derived cells cultured in the presence of casein hydrolysate. A further subculture to medium containing coconut milk and lower concentrations of NH₄NO₃ and sucrose promoted shoot development. Rooting was readily achieved upon transferring shoots onto half-strength MS medium. Plantlets were ultimately established in soil.Abbreviations BA benzyladenine - BM basal medium - CH casein hydrolysate - CM coconut milk - 2,4-D 2,4-dichlorophenoxyacetic acid - IAA indoleacetic acid - Kn kinetin - MS Murashige & Skoog - NAA naphthaleneacetic acid     

MORPHOGENETIC STUDIES ON HAWORTHIA: ESTABLISHMENT OF TISSUE CULTURE AND CONTROL OF DIFFERENTIATION

Investigations were carried out on the in vitro morphogenetic responses of inflorescence segments and gynoecia of several species of Haworthia (Liliaceae). Morphogenetic responses of explants were not species specific. It was found that coconut milk was essential for the growth and differentiation of Haworthia tissue if White's basal medium was used. However, growth and differentiation could be supported by a modified Murashige and Skoog's medium, without any supplements. The investigations demonstrated’ the importance of inositol and ammonium nitrogen in the nutrition of Haworthia tissue cultures. A chemical control of callusing and shoot and root differentiation was obtained by providing appropriate amounts of auxin and cytokinin in the culture medium.     

Direct embryogenesis from female haploid protoplasts of Ginkgo biloba L., a medicinal woody species

Summary Haploid protoplasts isolated from prothallus (i.e. female gametophyte) of Ginkgo biloba, at densities ranging from 5×10⁴ to 10⁵ protoplasts per milliliter, were able to divide and form microclones which directly evolved into embryos, when they were cultured in two different liquid media. These were: the Murashige and Tucker medium (1969) modified by omitting ammonium ions and supplementing with glutamine, benzyladenine and various levels of naphthaleneacetic acid; or the Bourgin and Nitsch medium (1967) without growth regulators, supplemented with coconut milk. Three months later, the number of embryos ranged from 165 to 1900 embryos ml^–1 depending on the culture medium. After four months, embryos at whatever stage (globular, oblong or heart) exhibited a slow growth, which delayed the transfer onto solid media.Abbreviations BA 6-benzyladenine - BN Bourgin and Nitsch (1967) medium - MT Murashige and Tucker (1969) medium - NAA naphthaleneacetic acid     

Plantlets from somatic callus tissue of the woody legume Sesbania bispinosa (Jacq.) W. F. Wight

In vitro regeneration of plantlets and multiplication of Sesbania bispinosa (Jacq.) W.F. Wight plants from cultured callus tissue were demonstrated. Callus was established from both cotyledons and mature leaflets on Murashige and Skoog (MS) basal medium supplemented with BAP (0.5 mg/l) and 2,4-D (2 mg/l). Callus mediated shoot bud differentiation was studied under defined nutritional, hormonal and cultural conditions. Various concentrations of BAP or kinetin (Kn) with coconut milk (CM) in MS media induced different levels of shoot bud differentiation as well as multiplication. Multiple shoot bud differentiation occurred in most of the primary calli. The best medium for shoot bud differentiation from cotyledon derived callus, contained BAP (2 mg/l) and 15% CM (V/V). More efficient shoot bud organogenesis was recorded with BAP than Kn. Supplementation with CM in MS media accelerated shoot bud organogenesis in differentiating callus tissue. Rooting of differentiated shoots was achieved by a three step culture procedure involving (a) MS solid medium containing IBA (2 mg/l), (b) growth regulator free half strength MS medium with 1% charcoal, and (c) half strength MS liquid medium free of vitamins, growth regulators and charcoal.Abbreviations IAA indoleacetic acid - IBA indole-3-butyric acid - NAA naphthaleneacetic acid - 2,4-D 2,4-dichlorophenoxyacetic acid - BAP 6-benzylaminopurine - Kn kinetin - CM coconut milk - MS Murashige and Skoog's medium - SBI shoot bud inducing medium     

Effects of Activated Charcoal on Growth and Morphogenesis in Cell Cultures

The effects of activated charcoal on growth and morphogenesis in plate cultures of different plant cells have been studied. It was shown that medium containing charcoal induced embryogenesis in cultures of Daucus carota in which embryo formation could not be brought about by omitting auxin from the medium. Charcoal-medium also induced abundant root formation in older cultures of Allium cepa, which normally did not produce roots. The growth of cultures of Glycine max and Haplopappus gracilis was totally inhibited by charcoal. It is thought that activated charcoal removes substances from the medium, one of which might be auxin.     

Tissue cultures of Artemisia pallens: Organogenesis,terpenoid production

Germinated seedlings of Artemisia pallens gave three types of cultures on MS medium supplemented with different plant growth hormones. Medium containing BA+2,4-D stimulated unorganized callus; BA+IAA medium, semi-organized tissues interspersed with shoot buds; and BA+NAA+IAA medium, multiple shoot cultures. The in vitro shoots developed roots in medium devoid of growth hormones. TLC and GLC analysis of the tissue extracts showed that linalool was present in the cultured tissues, with maximum concentration in the unorganized tissue. Although the TLC profiles of the three culture extracts were similar, the extracts did not contain the major polar compounds of the plant. The plant extracts contained more polar compounds and gave the characteristic fragrance of davana.Abbreviations MS Murashige & Skoog's basal medium - BA benzyladenine - Kn kinetin - NAA naphthaleneacetic acid - IAA indoleacetic acid - 2,4-D 2,4-dichlorophenoxyacetic acid - PCV packed cell volume     

Nutritional changes induce xylogenesis in callus ofHaplopappus gracilis (NUTT.) A. Gray

Xylogenesis was induced in cultures of calli ofHaplopappus gracilis (NUTT.) A. Gray by metabolic shocks brought about by changes in nutrition. Xylogenesis was observed to occur in response to three changes in callus nutrition, caused by the following modifications of Eriksson’s nutrient medium and culture conditions: i) omission of sucrose in the medium for 3 to 6 days and then transfer of the calli onto complete Eriksson’s medium; ii) replacement of sucrose by 0.36*mol l_-1 xylose for the whole culture period; iii) omission of nitrogen sources(i.e. glycine and NH₄NO₃ omission and replacement of KNO₃ with equimolar KCI) for the whole culture period. The induction of xylogenesis in response to nutritional stress inH. gracilis can be used as a suitable model system for research concerning plant cell differentiation.     

THE GROWTH AND DIFFERENTIATION OF CULTURED BARLEY EMBRYOS

Norstog , Knut . (Wittenberg U., Springfield, Ohio.) The growth and differentiation of cultured barley embryos. Amer. Jour. Bot. 48(10): 876–884. Illus. 1961.—Cultures of excised embryos of barley, Hordeum vulgare L., were made on a number of different media. Growth on White's medium was promoted by adding coconut milk. In the absence of coconut milk, amino acids did not promote growth and differentiation. Embryos as small as 60 μ were successfully grown in vitro. Smaller embryos had the capacity to initiate root and shoot primordia but did not possess the ability to form such embryonic organs as the scutellum and epiblast. Proembryos developed shoots and roots only after a period of irregular growth in which unorganized masses of cells were formed. Multiple centers of shoot initiation were observed in such embryos. The results of the study suggest that, in barley at least, embryonic form may result from an interaction between the embryo and nutritional, spatial and other factors within the ovule.     

In vitro Studies on Pinus

Hypocotyl tissue from Pinus gerardiana was established in culture on White's basal medium supplemented with 2 % sucrose, 10% (v/v) coconut milk, 500 mg/l casein hydrolysate and 1 mg/1 2,4-dichlorophenoxyacetic acid (2,4-D). Various organic and inorganic nutrients were studied in order to determine the specific nutritional requirements of the tissue in vitro. Sucrose, glucose and maltose were equally effective as fixed carbon sources. The inorganic nutrient combination of White's medium was found to be better than that of Murashige and Skoog's medium. White's modified basal medium supplemented with coconut milk, casein hydrolysate and 2,4-D was the most successful nutrient combination. Glutamine was as effective as casein hydrolysate in promoting growth of the tissue.     

CHARACTERIZATION OF AN EMBRYOGENIC CELL SUSPENSION CULTURE DERIVED FROM CULTURED INFLORESCENCES OF PENNISETUM AMERICANUM (PEARL MILLET,GRAMINEAE)

An embryogenic suspension culture was established from cultured inflorescence segments of Pennisetum americanum in Murashige and Skoog's medium supplemented with 2.5 mg/1 2,4-dichlorophenoxyacetic acid (2,4-D) and 5% coconut milk. The suspension was composed of two major cell types: 1) small, richly cytoplasmic and starch-containing cells, generally found in small, compact clumps, here termed embryogenic cells; and 2) elongated, thick-walled cells with large vacuoles. By manipulating the duration of culture and dilution ratios (cell suspension: fresh medium) at the time of subculture, suspensions consisting predominantly of embryogenic cells were obtained. Suspensions grown for 2-3 wks were transferred to agar media with reduced amounts of 2,4-D. This resulted in the production of hundreds of globular and early cotyledonary embryoids. Further development of the embryoids was promoted by their transfer to a medium containing abscisic acid. Many of the embryoids germinated and produced normal green plants. Atypical embryoids, some containing many shoot meristems and a leafy scutellum, were also observed. The relevance of such atypical embryoids in the interpretation of organogenesis and embryogenesis reported in tissue cultures of cereal species is discussed. It is also suggested that somatic embryogenesis occurs in tissue cultures of most, if not all, species of cereals and grasses.     

Preliminary observations on organogenesis inTaraxacum officinale tissue cultures

Summary Tissue cultures ofTaraxacum officinale have been isolated from the secondary thickened root. Callus development and leaf and root formation occur on a basal medium supplemented with coconut milk and IAA or NAA, and the addition of kinetin to these media enhances callus growth and organogenesis. Cultures grown on the basal medium with coconut milk and 2,4-D show only callus growth, but organogenesis is induced by the substitution of IAA for 2,4-D. In the 2,4-D grown callus a layer of secondary meristematic tissue is present and organogenesis apparently occurs from localized regions of this tissue which have undergone de-differentiation to the primary meristematic condition.     

The Effect of Growth Conditions and Origin of Tissue 5Phaseolus vulgaris L.)

Callus cultures isolated from various somatic tissues and anthertissue of Phaseolus vulgaris seedlings on a defined growth mediumcontained few diploid cells. The proportion of diploid cellsdid not alter as cultures lost their ability to form vasculartissue. Meristematic cells of roots initiated after transferto induction medium were diploid. All cultures lost their morphogeneticpotential after five to seven subcultures except anther calluswhich formed vascular tissue over a prolonged period of cultureon maintenance medium. After six subcultures anther callus containedmore polyploid cells than somatic cultures. Callus isolated from bean hypocotyl tissue in the presence ofcoconut milk consisted mainly of diploid cells and retainedits morphogenetic potential for a greater number of subculturesthan callus grown on defined medium. Transfer of callus isolatedon the defined medium to medium containing coconut milk increasedthe proportion of diploid cells and prevented further loss ofinorphogenetic potential. An equivalent concentration of cytokininto that in coconut milk prevented the loss of potential butdid not affect the ploidy of the cultures.     

Embryoids derived from isolated protoplasts of carrot

Summary Protoplasts isolated enzymatically from carrot root tissues developed into cell clusters in a liquid medium containing coconut milk and naphthaleneacetic acid (NAA) or 2,4-dichlorophenoxyacetic acid (2,4-D). Cells of the resulting calluses differentiated into embryoids on an agar medium containing coconut milk or kinetin.     

Cytogenetic studies of Haplopappus gracilis in both callus and suspension cell cultures

Summary Investigations have been carried out on karyotype change in both callus and suspension cell cultures of Haplopappus gracilis (2n=4). It has been found that polyploidization arises directly in culture to give up to six times the normal diploid chromosome number in some cultures. In polyploid cultures, both chromosome loss and chromosome rearrangements occur to give rise to aneuploid karyotypes displaying chromosomes which differ in morphology from the diploid set. Whole or partial chromosome loss has been observed in the form of lagging chromosomes and chromosome bridges at anaphase, and micronuclei, ring chromosomes and chromosome fragments at other stages in mitosis. C-banded preparations have confirmed the occurrence of chromosomal rearrangements. Comparative investigations suggest that (i) more polyploidy occurs in callus cultures than in suspension cell cultures, and (ii) the presence of cytokinin (kinetin) in the culture medium may reduce the extent of karyotype change.     

VARIATIONS WITHIN SINGLE CELL CLONES OF TOBACCO TISSUE CULTURES

Comparative studies were made utilizing two series of secondary clones (single cell clones derived from single cell clones H 196 and H 241) of hybrid tobacco (Nicotiana tabacum ♂ × Nicotiana glutinosa ♀ ) tissue grown in vitro. Secondary clones derived from a single parent varied in color, consistency, the ability to grow, and rate of growth with various carbohydrates and growth-promoting substances. The growth of the secondary clones generally resembled that of the parent clone from which derived. Many of the 23 secondary clones of H 196 grew satisfactorily on media supplemented with sucrose, dextrose, levulose, or maltose; lactose, galactose, and xylose were unsatisfactory supplements. Similarly, the series of 30 secondary clones isolated from H 241 grew well on some media but poorly on others. Growth generally decreased when α-napthaleneacetic acid or 2,4-dichlorophenoxyacetic acid was omitted from the basal coconut milk medium. Growth decreased considerably when coconut milk was omitted from the basal medium. The optimum sugar concentration was 1/2 to 1 per cent.